Difference between revisions of "The Inspirator"

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{{ShowInfo|[[Image:Note_error.png]]|'''Note:'''|This page tracks the development of {{PAGENAME}}<ref>[http://dmt-nexus.com/forum/default.aspx?g=posts&t=8985  Presenting The Inspirator (Ceramic Fiber to Replace Metal Mesh in "The Machine") by amor_fati]</ref>. The content is to remain accurate as such.}}
+
{{ShowInfo|[[Image:Note_error.png]]|'''Note:'''|This page tracks the development of {{PAGENAME}}<ref>[http://dmt-nexus.me/forum/default.aspx?g=posts&t=8985  The Inspirator: a DIY convection heated vaporizer for use w/ bubblers by amor_fati]</ref>. The content is to remain accurate as such.}}
 
+
  
 +
<onlyinclude>
 
<table style="border: 1px solid #676767;margin-left:5%" cellspacing="0">
 
<table style="border: 1px solid #676767;margin-left:5%" cellspacing="0">
 
<tr style="background: #454545;">
 
<tr style="background: #454545;">
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The advantage of [[The Machine]] is that having a copper or steel mesh between the product and the flame protects the product from direct contact with the flame as well as distributing the heat of the flame evenly and rapidly to the product. However, most have a difficult time constructing one in the recommended fashion. Also, many prefer to cool their vapor by bubbling it through water during administration, and a properly fashioned "machine" does not easily facilitate thisYet another issue that plagues the machine is that metal mesh--while fairly efficient in distributing heat and protecting the product from the flame--could still stand some improvement.
+
[[The Inspirator]] was considered by its designer to be the criterion of efficiency for vaporizing [[spice]], and to be a cheap and effective method of achieving sufficiently cool, full, measured dosesThe device is inspired in part by [[The Machine]] but operates by convection heating--diffusing the heat through a ceramic heat-sink, in turn heating the airflow--rather than conduction.  This design was the final evolution of [[The Mini-Machine Bubbler Stem]], though has since been succeeded by [[The Inspirator mkII]].
  
The progenitor of the device featured in this tek, known as [[amor_fati's Mini-Machine Bubbler Stem]] sought to overcome many of the obstacles in use of "the machine," while operating essentially in much the same manner.  Once mastered, the bubbler stem could be an incredibly effective vaporizer with only a few limitations:  Some amount of product would run away from the plug and partway down the stem when used at the most natural angle for a bubbler bowl; though this could be overcome by a simple angle adjustment, or the product easily retrieved for successive hits by simply plunging the plug up the stem and back into place, its effectiveness and ease of use was greatly limited by this and the slight inefficiency of the metal mesh in providing even distribution of heat.
 
 
Probably the most universal cause of any degree of inefficiency for any variation of "the machine" is the direct heating of the metal mesh, given the mesh's poor capacity as a heat sink.  This is evidenced in part by the amount of heat transfer from the plug to the glass, and the runoff that occurs in the mini-machine bubbler stem is likely, in part, due to that and how slowly and unevenly the mesh transfers heat. And so, to remedy this, a much better heat-sink was chosen to absorb the heat of the flame:  Ceramic fiber is a material able to handle temperatures much higher than those generated by consumer butane torches and has a somewhat malleable structure, allowing it to be used in much the same way as metal mesh has been traditionally implemented.  It's limitations are that it heats too rapidly to act as a stand-alone plug in "the machine," that it's soft and light and difficult to keep in position, and it doesn't easily allow good airflow.  However, the addition of a shorter plug of metal mesh to act as a screen between the product and the ceramic helps to keep the ceramic fiber locked in position, protect the product from overheating, allows the fiber to be worked around in order to maximize airflow, and maintains ceramic fiber's advantage of not allowing any runoff.
 
 
A bubbler stem such as the one presented here and in this device's progenitor, is perhaps the most effective manner of putting ceramic fiber into practice, as it's size accounts for the potential for compromise of the fiber's structure.  While the fiber can break quite easily, it remains just fluffy enough to remain intact in a device the size of a dropper and remains consistently in place when locked between the curvature of the glass and the mesh plug.
 
 
The Inspirator is considered by its creator to be the criterion of efficiency for vaporizing [[spice]].
 
 
 
==== Procedure for Construction ====
 
  
 +
===== Procedure for Construction =====
 +
{{ShowInfo|[[Image:Note_error.png]]|'''Note:'''|Though this design is thought to minimize the possibility of exposure, SuperWool 607 HT should be used for health considerations, as ceramic fiber can be hazardous to the repiratory system.}}
 
{{materials_list
 
{{materials_list
 
|
 
|
Line 36: Line 28:
 
* Glass Dropper Stem (either from a pharmacy OTC or an online vendor)
 
* Glass Dropper Stem (either from a pharmacy OTC or an online vendor)
 
* Ceramic Fiber (in any form, often found as blankets)
 
* Ceramic Fiber (in any form, often found as blankets)
* Copper or Stainless Steel Pan Scrubber (as long as the metal doesn't burn or melt with the use of a butane torch)
+
** '''Please use SuperWool 607 HT for health considerations.'''
 +
* 1 Round Metal Screen or Faucet Aerator (as long as the metal doesn't burn or melt with the use of a butane torch)
 
* A Thin Metal Rod (even a paper clip would probably work)
 
* A Thin Metal Rod (even a paper clip would probably work)
 
* Safety Pin (long enough to punch holes through the plug)
 
* Safety Pin (long enough to punch holes through the plug)
Line 44: Line 37:
 
<table>
 
<table>
 
<tr>
 
<tr>
<td>[[Image:P1050415.JPG|thumb|center|320px|Dropper Stem]]</td>
+
<td>[[Image:TheInspirator.JPG|thumb|center|320px|The Inspirator]]</td>
<td>[[Image:The_Inspirator.JPG|thumb|center|320px|Complete Mini-Machine Bubbler Stem]]</td>
+
<td>[[Image:Inspirator_close.JPG|thumb|center|320px|Close up of the heat intake.]]</td>
 
</tr>
 
</tr>
 
</table>
 
</table>
[[Image:P1050511.JPG|thumb|350px|Some variations in gasket design.]]
+
[[Image:Inspirator_alt.JPG|thumb|350px|An alternative design w/ copper mesh.]]
 +
 
 
# Carefully crush the nozzle of the dropper stem with pliers, leaving a slight portion of the nozzle's curve.
 
# Carefully crush the nozzle of the dropper stem with pliers, leaving a slight portion of the nozzle's curve.
 +
#* ''be sure to wash out any lingering pieces of glass.''
 
# Melt the broken end of the stem with a torch so that the sharp edges are dulled and any cracks sealed.
 
# Melt the broken end of the stem with a torch so that the sharp edges are dulled and any cracks sealed.
# Cut a segment of ceramic fiber, and use a thin metal rod to stuff it down toward the nozzle-end somewhat snuggly, and so that a part of the ceramic is exposed out of the broken end.
+
# Cut a segment of ceramic fiber, and use a thin metal rod to stuff it down toward the nozzle-end snuggly, and so that a part of the ceramic is exposed out of the heat intake.
# Cut off a minimal piece of the metal scrub pad, hold it with pliers, and burn with a torch under an oven hood until no more smoke is emitted.
+
# Ensure that the screen to be used is heat resistant by applying direct flame with the torch, and if smoke emits, continue to burn until no more can be observed.
# After it has cooled, stuff it in the larger end of the dropper stem and down toward the ceramic to lock it in place.
+
#* ''alternatively, a small metal mesh plug can be prepared from steel or copper scrub-pad in the same manner.''
 +
#* ''this is the absolute highest temperature this piece will ever reach and will remain inert while in use.''
 +
# After it has cooled, use a chopstick or another cylindrical device thin enough to fit the inside of the dropper stem to apply pressure to the center of the screen while bending the edges up and around the device to mold it into a form that will fit snuggly in the stem.
 +
# Carefully push the screen as snuggly as possible atop the ceramic fiber plug in the piece, working edges down between the glass and the plug.
 
# Fit two gaskets on the stem far enough from the plug to avoid heat but far enough from the other end to provide a stable stem.
 
# Fit two gaskets on the stem far enough from the plug to avoid heat but far enough from the other end to provide a stable stem.
 
#* ''alternatively and more cheaply, a small section of latex tubing could be rolled or folded into a ring around the stem to serve the same purpose.''
 
#* ''alternatively and more cheaply, a small section of latex tubing could be rolled or folded into a ring around the stem to serve the same purpose.''
# Use a safety pin to punch holes through the ceramic/copper plug while holding the plug in place to ensure adequate airflow.
+
 
 +
===== Calibration =====
 +
{{Procedure
 +
|for Calibrating Airflow
 +
|
 +
{{ShowInfo/In Article|[[Image:Information.png]]|'''NOTE'''|Airflow is the key factor in ensuring the quality and effectiveness of the device.  A properly calibrated Inspirator will vaporize perfectly with little to no subsequent maintenance.
 +
|0px
 +
|
 +
}}
 +
# Using a thin metal rod or similar device, compress the screen and ceramic fiber plug by gradually and carefully working down the edges of the screen.
 +
# Keep the screen stable and in place with the rod, and, with a safety pin, punch a hole through the plug from the intake of the piece to the screen, working the ceramic around to compress it to the sides in order to help it hold it's form.
 +
# Remove the rod and use the safety pin to push the screen slightly off of the ceramic plug, and gently dig any remaining ceramic in the middle of the screen into the sides.
 +
# To test the airflow, simply blow through the open-end of the piece, but the success of calibration can be more accurately gauged by seating in a bubbler and drawing air through.
 
#* ''there should be some amount of pressure but no strain on the draw.''
 
#* ''there should be some amount of pressure but no strain on the draw.''
# To further improve airflow, insert the piece into a bubbler and use a safety pin to work the ceramic fiber around until the draw becomes significantly easier.
+
# The result of proper calibration will be rapid production of thick and cool vapor almost immediately upon heat application.
#* ''airflow is the key factor in ensuring the quality and effectiveness of the device.''
+
}}
  
==== Administration. ====
+
===== Administration. =====
 
+
{{procedure
# Place product into the open end of the stem and stuff down to the plug with a thin metal rod.
+
|Use w/ Dry Freebase
# Feather the glass with a torch until the product melts into the mesh plug.
+
|
 +
{{ShowInfo/In Article|[[Image:Information.png]]|'''NOTE'''|This procedure works as well with one screen inserted as two.
 +
|0px
 +
|
 +
}}
 +
# Place product into the open end of the stem and stuff down to the screen with a thin rod.
 +
# Feather the glass with a torch until the product melts into the screen.
 
# Insert the stem into a bubbler as a bowl, with the open end in.
 
# Insert the stem into a bubbler as a bowl, with the open end in.
 
# Use a torch to apply heat to the exposed ceramic portion of the plug while drawing air through the bubbler.
 
# Use a torch to apply heat to the exposed ceramic portion of the plug while drawing air through the bubbler.
 
#* ''keeping some distance with the torch is recommended to avoiding burning or overheating.''
 
#* ''keeping some distance with the torch is recommended to avoiding burning or overheating.''
 
# Only apply heat until a decent amount of vapor can be observed in the chamber, carb the bubbler immediately but briefly, and continue to apply heat and inhale in the same manner.
 
# Only apply heat until a decent amount of vapor can be observed in the chamber, carb the bubbler immediately but briefly, and continue to apply heat and inhale in the same manner.
#* ''once the device reaches a sufficient temperature, it will give off vapor rapidly and will not necessarily require continued heat application, but continue to heat periodically during to ensure complete vaporization.''
+
#* ''once the device reaches a sufficient temperature, it will give off vapor rapidly and will not necessarily require continued heat application, but continue to heat periodically during the draw to ensure complete vaporization.''
 +
#* ''if the vapor emits too slow or becomes harsh--either hot or burnt--this is due to inadequate airflow through the plug and must be calibrated'' with a safety pin for the device to operate properly.''
 
<table>
 
<table>
 
<tr>
 
<tr>
Line 76: Line 93:
 
</tr>
 
</tr>
 
</table>
 
</table>
 
+
}}
 
+
  
 
{{procedure
 
{{procedure
|Use with an Improvised Labware Bubbler
+
|Use w/ Acetate Tincture
 
|
 
|
{{ShowInfo/In Article|[[Image:Information.png]]|'''NOTE'''|Though a slightly different design is pictured, this design is to be used in the same manner.
+
{{ShowInfo/In Article|[[Image:Information.png]]|'''NOTE'''|It is recommended that two screens be used for this procedure.
 
|0px
 
|0px
 
|
 
|
 
}}
 
}}
<table>
+
# A tincture may be produced specifically for vaporization by placing a known amount of freebase in a dropper bottle and diluting with distilled white vinegar (5% acetic acid), heating with a hot water bath and shaking vigorously, evaporating the contents of the dropper bottle and repeating until the contents are completely dissolved.
<tr>
+
#* ''currently 200mg/mL, yielding ~7mg/drop, is the recommended maximum concentration.''
<td>[[Image:P1050449.JPG|thumb|center|500px|The mouthpiece is a longer dropper tube (Pasteur pipette) connected to the nozzle of the vacuum flask by another segment of latex tubing.]]</td>
+
#* ''oral use of a tincture produced in this manner is not recommended, due to the lack of a proper preservative
<td>[[Image:P1050452.JPG|thumb|center|500px|The segment of latex on the top of the inlet is folded over itself to make a wide even rim to facilitate a proper seal with the glass rim of the dropper stem when held in place.]]</td>
+
# The Inspirator may then be loaded with sets of 1-3 drops (recommended) followed by feathering the piece with a torch between sets and prior to usage in order to boil off excess water, as well as to dissociate acetic acid from the product to render a freebase.
</tr>
+
#* ''this will help prevent any tincture from running out of the piece, as well as to eliminate acid to improve the quality of the vapor.''
</table>
+
#* ''do not put the nozzle directly in the piece, as this will create a seal, resulting in positive pressure forcing some of the tincture out of the piece.''
 +
# Proceed with normal vaporization procedure as outlined in use with dry freebase.
 
}}
 
}}
  
==== Notes on Effective Use and Maintenance ====
+
===== Notes on Effective Use and Maintenance =====
  
 
{{Procedure
 
{{Procedure
|for Cleaning the Mini-Machine
+
|for Cleaning The Inspirator
 
|
 
|
{{ShowInfo/In Article|[[Image:Information.png]]|'''NOTE'''|Though acetone works well for this, it can be dangerous in terms of inhalation of fumes and potential fire hazard.  A good nontoxic alternative is to use vinegar to clean the piece, then a sodium carbonate solution to neutralize the acetic acid in the vinegar, then water to wash out any residual base or salts.  Heat application may help to remove residual moisture from the plug.
+
# ''Attach a chemically resistant dropper bulb to the open end of the stem.''
|0px
+
# ''Prepare a flask of cleaning solvent (IPA or acetone work best).''
|
+
}}
+
# ''Attach a chemically resistant dropper bulb to the open end.''
+
# ''Prepare a flask of cleaning solvent.''
+
 
# ''Draw in the solvent and squirt out through the plug until sufficiently clean.''
 
# ''Draw in the solvent and squirt out through the plug until sufficiently clean.''
 
#* <small>''actives may potentially be salvaged from cleaning solvent collected over time.''</small>
 
#* <small>''actives may potentially be salvaged from cleaning solvent collected over time.''</small>
 
# ''Scrub with a q-tip.''
 
# ''Scrub with a q-tip.''
 
# ''Carefully blow out remaining solvent.''
 
# ''Carefully blow out remaining solvent.''
 +
# ''Feather the piece with a torch to aid in evaporating solvent and carefully apply the flame to the tip in order to burn any residual solvent.''
 +
#* <small>''the tip will light up like a candle, so allow the flame to burn while feathering the glass with a torch to hasten the process.''</small>
 
# ''Scrub out moisture with the other end of the q-tip.''
 
# ''Scrub out moisture with the other end of the q-tip.''
# ''Ensure the absence of residual solvent prior to use.''
+
# ''Ensure the absence of residual solvent prior to use by smell and further flame application.''
 +
# ''[[#Calibration|Recalibrate]] the piece if necessary.
 
}}
 
}}
  
* A handy method for storing the piece would be to cap the nozzle end with the dropper bulb in order to protect from breakage and keep track of the bulb to use when cleaning.
+
====== Storage ======
* The second gasket generally makes the piece safer to handle--especially if used as a pull stem--while the other provides a seal.
+
 
 +
To ensure that the inspirator is clean prior to every use, it can be stored in a dropper bottle filled with [[IPA]].
 +
* Ensure the absence of IPA in the piece prior to usage by heating, burning and blowing the residual solvent out of the piece.
 +
 
 +
<table valign="top">
 +
<tr>
 +
<td>[[File:Dropper-set.JPG|thumb|center|320px|Two [[The Inspirator|Inspirators]] stored in dropper bottles, preserved with [[IPA]], along with a super-concentrated acetate [[spice]] tincture intended for vaporization.]]</td>
 +
<td>[[File:Dropper-inspirator.JPG|thumb|center|320px|Inspirator removed from bottle.]]</td>
 +
<td>[[File:Dropper-inspirator gasket.JPG|thumb|center|320px|With a little clearanc from the end, a gasket can fit snuggly in the bottle with the cap and dropper bottle in place.]]</td>
 +
</tr>
 +
</table>
 +
 
 +
====== Further Tips ======
 +
 
 +
* Another handy method for storing the piece would be to cap the nozzle end with the dropper bulb in order to protect from breakage and keep track of the bulb to use when cleaning.
 +
* A second gasket generally makes the piece safer to handle--especially if used as a pull stem--while the other provides a seal.
 
* For group sessions, it would be easiest to prepare an individual piece for each person so that dosage can be more easily regulated.
 
* For group sessions, it would be easiest to prepare an individual piece for each person so that dosage can be more easily regulated.
 
* When handling the piece after heating, handle by the gasket and avoid any part of the heated portion of the glass coming into any contact with hard surfaces.
 
* When handling the piece after heating, handle by the gasket and avoid any part of the heated portion of the glass coming into any contact with hard surfaces.
Line 123: Line 154:
 
</onlyinclude>
 
</onlyinclude>
  
==== Appendices ====
+
===== Appendices =====
 +
<onlyinclude>
 +
====== Special Thanks ======
  
: Special Thanks:
+
:* To Warrensaged for pioneering the use of a machine-style bowl with a bubbler.<ref>[[The_Machine#Machine-Style_Bubbler_Piece|Bubbler Bowl Variation of "The Machine"]]</ref>
:* To Warrensaged for pioneering the use of a machine-style bowl with a bubbler.
+
:* To q21q21 and Bumber for inspiring the development of the progenitor of this method.<ref>[[The Mini-Machine Bubbler Stem]]</ref>
:* To q21q21 and Bumber for inspiring SWIM to develop this method.
+
</onlyinclude>
 +
:* To q21q21 for developing his method of acetate to freebase spice conversion.<ref>[https://dmt-nexus.me/forum/default.aspx?g=posts&t=10674 Acetates, the solution to all needs DMT.]</ref><ref>[https://dmt-nexus.me/forum/default.aspx?g=posts&t=10790 *PROOF* Freebasing acetates with only heat (to white crystals *pic*)]</ref>
  
== Reference ==
+
====== Reference ======
  
 
{{Page Footer|Administration Tek|DMT}}
 
{{Page Footer|Administration Tek|DMT}}

Latest revision as of 20:57, 31 January 2012

Note error.png Note: This page tracks the development of The Inspirator[1]. The content is to remain accurate as such.


in·spi·ra·tor (ĭn'spə-rā'tər) n.

  1. A device, such as a respirator or inhaler, by which a gas, vapor, or air is drawn in.
  2. One who inspires or motivates others.

[From Late Latin, from inspirare 'to inspire' (from in- + spirare 'to breathe') + -tor; cognate with, and possibly derived via, English or German]


The Inspirator was considered by its designer to be the criterion of efficiency for vaporizing spice, and to be a cheap and effective method of achieving sufficiently cool, full, measured doses. The device is inspired in part by The Machine but operates by convection heating--diffusing the heat through a ceramic heat-sink, in turn heating the airflow--rather than conduction. This design was the final evolution of The Mini-Machine Bubbler Stem, though has since been succeeded by The Inspirator mkII.


Procedure for Construction
Note error.png Note: Though this design is thought to minimize the possibility of exposure, SuperWool 607 HT should be used for health considerations, as ceramic fiber can be hazardous to the repiratory system.
Materials Required Checklist.png
Equipment:
  • Butane Torch (same one that will be used for vaporization)
  • Glass Dropper Stem (either from a pharmacy OTC or an online vendor)
  • Ceramic Fiber (in any form, often found as blankets)
    • Please use SuperWool 607 HT for health considerations.
  • 1 Round Metal Screen or Faucet Aerator (as long as the metal doesn't burn or melt with the use of a butane torch)
  • A Thin Metal Rod (even a paper clip would probably work)
  • Safety Pin (long enough to punch holes through the plug)
  • Pliers
  • Rubber Gasket and/or Latex Tubing


The Inspirator
Close up of the heat intake.
An alternative design w/ copper mesh.
  1. Carefully crush the nozzle of the dropper stem with pliers, leaving a slight portion of the nozzle's curve.
    • be sure to wash out any lingering pieces of glass.
  2. Melt the broken end of the stem with a torch so that the sharp edges are dulled and any cracks sealed.
  3. Cut a segment of ceramic fiber, and use a thin metal rod to stuff it down toward the nozzle-end snuggly, and so that a part of the ceramic is exposed out of the heat intake.
  4. Ensure that the screen to be used is heat resistant by applying direct flame with the torch, and if smoke emits, continue to burn until no more can be observed.
    • alternatively, a small metal mesh plug can be prepared from steel or copper scrub-pad in the same manner.
    • this is the absolute highest temperature this piece will ever reach and will remain inert while in use.
  5. After it has cooled, use a chopstick or another cylindrical device thin enough to fit the inside of the dropper stem to apply pressure to the center of the screen while bending the edges up and around the device to mold it into a form that will fit snuggly in the stem.
  6. Carefully push the screen as snuggly as possible atop the ceramic fiber plug in the piece, working edges down between the glass and the plug.
  7. Fit two gaskets on the stem far enough from the plug to avoid heat but far enough from the other end to provide a stable stem.
    • alternatively and more cheaply, a small section of latex tubing could be rolled or folded into a ring around the stem to serve the same purpose.
Calibration
for Calibrating Airflow Cog.png
NOTE Information.png
Airflow is the key factor in ensuring the quality and effectiveness of the device. A properly calibrated Inspirator will vaporize perfectly with little to no subsequent maintenance.
  1. Using a thin metal rod or similar device, compress the screen and ceramic fiber plug by gradually and carefully working down the edges of the screen.
  2. Keep the screen stable and in place with the rod, and, with a safety pin, punch a hole through the plug from the intake of the piece to the screen, working the ceramic around to compress it to the sides in order to help it hold it's form.
  3. Remove the rod and use the safety pin to push the screen slightly off of the ceramic plug, and gently dig any remaining ceramic in the middle of the screen into the sides.
  4. To test the airflow, simply blow through the open-end of the piece, but the success of calibration can be more accurately gauged by seating in a bubbler and drawing air through.
    • there should be some amount of pressure but no strain on the draw.
  5. The result of proper calibration will be rapid production of thick and cool vapor almost immediately upon heat application.


Administration.
Use w/ Dry Freebase Cog.png
NOTE Information.png
This procedure works as well with one screen inserted as two.
  1. Place product into the open end of the stem and stuff down to the screen with a thin rod.
  2. Feather the glass with a torch until the product melts into the screen.
  3. Insert the stem into a bubbler as a bowl, with the open end in.
  4. Use a torch to apply heat to the exposed ceramic portion of the plug while drawing air through the bubbler.
    • keeping some distance with the torch is recommended to avoiding burning or overheating.
  5. Only apply heat until a decent amount of vapor can be observed in the chamber, carb the bubbler immediately but briefly, and continue to apply heat and inhale in the same manner.
    • once the device reaches a sufficient temperature, it will give off vapor rapidly and will not necessarily require continued heat application, but continue to heat periodically during the draw to ensure complete vaporization.
    • if the vapor emits too slow or becomes harsh--either hot or burnt--this is due to inadequate airflow through the plug and must be calibrated with a safety pin for the device to operate properly.
Seated in a bubbler.
Loading the device.


Use w/ Acetate Tincture Cog.png
NOTE Information.png
It is recommended that two screens be used for this procedure.
  1. A tincture may be produced specifically for vaporization by placing a known amount of freebase in a dropper bottle and diluting with distilled white vinegar (5% acetic acid), heating with a hot water bath and shaking vigorously, evaporating the contents of the dropper bottle and repeating until the contents are completely dissolved.
    • currently 200mg/mL, yielding ~7mg/drop, is the recommended maximum concentration.
    • oral use of a tincture produced in this manner is not recommended, due to the lack of a proper preservative
  2. The Inspirator may then be loaded with sets of 1-3 drops (recommended) followed by feathering the piece with a torch between sets and prior to usage in order to boil off excess water, as well as to dissociate acetic acid from the product to render a freebase.
    • this will help prevent any tincture from running out of the piece, as well as to eliminate acid to improve the quality of the vapor.
    • do not put the nozzle directly in the piece, as this will create a seal, resulting in positive pressure forcing some of the tincture out of the piece.
  3. Proceed with normal vaporization procedure as outlined in use with dry freebase.


Notes on Effective Use and Maintenance
for Cleaning The Inspirator Cog.png
  1. Attach a chemically resistant dropper bulb to the open end of the stem.
  2. Prepare a flask of cleaning solvent (IPA or acetone work best).
  3. Draw in the solvent and squirt out through the plug until sufficiently clean.
    • actives may potentially be salvaged from cleaning solvent collected over time.
  4. Scrub with a q-tip.
  5. Carefully blow out remaining solvent.
  6. Feather the piece with a torch to aid in evaporating solvent and carefully apply the flame to the tip in order to burn any residual solvent.
    • the tip will light up like a candle, so allow the flame to burn while feathering the glass with a torch to hasten the process.
  7. Scrub out moisture with the other end of the q-tip.
  8. Ensure the absence of residual solvent prior to use by smell and further flame application.
  9. Recalibrate the piece if necessary.


Storage

To ensure that the inspirator is clean prior to every use, it can be stored in a dropper bottle filled with IPA.

  • Ensure the absence of IPA in the piece prior to usage by heating, burning and blowing the residual solvent out of the piece.
Two Inspirators stored in dropper bottles, preserved with IPA, along with a super-concentrated acetate spice tincture intended for vaporization.
Inspirator removed from bottle.
With a little clearanc from the end, a gasket can fit snuggly in the bottle with the cap and dropper bottle in place.
Further Tips
  • Another handy method for storing the piece would be to cap the nozzle end with the dropper bulb in order to protect from breakage and keep track of the bulb to use when cleaning.
  • A second gasket generally makes the piece safer to handle--especially if used as a pull stem--while the other provides a seal.
  • For group sessions, it would be easiest to prepare an individual piece for each person so that dosage can be more easily regulated.
  • When handling the piece after heating, handle by the gasket and avoid any part of the heated portion of the glass coming into any contact with hard surfaces.
  • A good way to cool down a stem is to roll it rapidly between the palms, drawing the heat off the glass with one's hands.
  • If the the nozzle end of the piece breaks off at any point, carefully push the plug to the other end of the piece when it has sufficiently cooled, heat the sharp edges until dulled, and push the plug back into place firmly, with a finger in place causing the plug to mushroom slightly until it fits snugly in place.
  • Ensure adequate airflow through the piece by poking holes in the plug with a safety pin.
  • Develop a relationship with the device.


Appendices
Special Thanks
  • To Warrensaged for pioneering the use of a machine-style bowl with a bubbler.[2]
  • To q21q21 and Bumber for inspiring the development of the progenitor of this method.[3]
  • To q21q21 for developing his method of acetate to freebase spice conversion.[4][5]
Reference
  1. The Inspirator: a DIY convection heated vaporizer for use w/ bubblers by amor_fati
  2. Bubbler Bowl Variation of "The Machine"
  3. The Mini-Machine Bubbler Stem
  4. Acetates, the solution to all needs DMT.
  5. *PROOF* Freebasing acetates with only heat (to white crystals *pic*)